JP3892712B2 - X-ray generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an X-ray generation device, and more particularly, an X-ray generation device in which a high-voltage assembly and an X-ray tube assembly are accommodated in a tank and an insulating liquid is placed and the tank is sealed without requiring complicated maintenance. In particular, the present invention relates to an X-ray generator capable of compensating for volume expansion of an insulating liquid.
[0002]
[Prior art]
In an X-ray generator in which a high-voltage assembly and an X-ray tube assembly are housed in a tank and an insulating liquid is placed and the tank is sealed, heat generation of the high-voltage assembly and the X-ray tube assembly causes volume expansion of the insulating liquid. As a result, the pressure inside the tank rises.
In order to prevent the pressure inside the tank from increasing, in the conventional X-ray generator, a hole is made in the upper part of the tank, a bag part of a rubber bag is put into the tank from the hole, and an opening part of the bag body The peripheral edge of the hole is airtightly attached to the tank wall at the peripheral edge of the hole.
[0003]
The bag body expands and contracts according to the difference between the pressure in the bag portion lumen and the pressure in the tank, and makes the pressure in the bag portion lumen and the pressure in the tank substantially equal. However, the bag portion lumen communicates with the surrounding space at the opening. For this reason, regardless of the volume expansion of the insulating liquid, the pressure inside the tank is maintained at the pressure in the surrounding space.
[0004]
[Problems to be solved by the invention]
As described above, the conventional X-ray generator compensates the volume expansion of the insulating liquid using a rubber bag.
However, there is a problem that dust in the surrounding space tends to accumulate in the bag part lumen of the bag body, and maintenance becomes complicated such that regular cleaning is required.
Further, in the conventional X-ray generator, when electric circuits are mounted on both sides of the tank, there is a problem that the electric wires connecting the electric circuits pass outside the tank, which becomes an obstacle.
SUMMARY OF THE INVENTION An object of the present invention is to provide an X-ray generator capable of compensating for the volume expansion of the insulating liquid without requiring complicated maintenance and laying out the wires connecting the electric circuits on both sides of the tank so as not to obstruct the operation. Is to provide.
[0005]
[Means for Solving the Problems]
In a first aspect, the present invention relates to an X-ray generator in which a high-voltage assembly and an X-ray tube assembly are accommodated in a tank and an insulating liquid is filled to seal the tank, and the tubular body that penetrates the tank The hollow cavity of the tubular body is open to the surrounding space at both ends of the tubular body, and the tubular body expands and contracts according to the difference between the pressure of the hollow cavity and the pressure inside the tank. An X-ray generator is provided.
In the X-ray generator according to the first aspect, the tubular body expands and contracts according to the difference between the pressure of the hollow cavity of the tubular body and the pressure inside the tank, but the hollow cavity of the tubular body opens to the surrounding space. The pressure inside the tank is maintained at substantially the pressure in the surrounding space, and the volume expansion of the insulating liquid can be compensated. Since the hollow space of the tubular body is open to the surrounding space at both ends, dust in the surrounding space is less likely to accumulate inside the hollow space of the tubular body, and complicated maintenance is not required. Further, since the tubular body penetrates the tank, the wiring passing through the outside of the tank can be eliminated by passing the electric wires connecting the electric circuits mounted on both sides of the tank through the hollow space of the tubular body. That is, an electric wire connecting the electric circuits on both sides of the tank can be wired so as not to get in the way.
[0006]
In a second aspect, the present invention provides an X-ray generator having the above-described configuration, wherein the tubular body is made of an oil-resistant rubber material.
In the X-ray generator according to the second aspect, since the tubular body is made of an oil-resistant material, deterioration can be prevented when insulating oil is used as the insulating liquid. Further, since the tubular body is made of a rubber material, it can be easily expanded and contracted by pressure.
[0007]
In a third aspect, the present invention provides an X-ray generator having the above-described configuration, wherein the oil-resistant rubber material is nitrile rubber.
Since the nitrile rubber (NBR) is used as the oil resistant rubber material, the X-ray generator according to the third aspect can be manufactured at low cost.
[0008]
In a fourth aspect, the present invention provides an X-ray generator having the above-described configuration, wherein the tubular body penetrates a tank in an X-ray irradiation direction.
In the X-ray generator according to the fourth aspect, the tubular body penetrates the tank in the X-ray irradiation direction, but the X-ray irradiation direction is often in the vertical direction from the horizontal direction. Even if it enters the hollow cavity lumen of the tubular body, it falls from the opening on the lower side and does not accumulate.
[0009]
In a fifth aspect, the present invention provides an X-ray generator having the above-described configuration, wherein the hollow cavity of the tubular body is a wiring passage.
In the X-ray generator according to the fifth aspect, since the electric wire connecting the electric circuit is passed through the hollow cavity of the tubular body, the wiring passing outside the tank can be eliminated. That is, the electric wire can be wired so as not to get in the way.
[0010]
In a sixth aspect, the present invention provides an X-ray generator having the above-described configuration, wherein an electric circuit is mounted on the X-ray exit window side of the tank and the opposite side thereof, and the hollow cavity of the tubular body is an electric circuit on both sides. An X-ray generator is provided which is a wiring path for wires connecting the two.
In the X-ray generator according to the sixth aspect, since the electric wires connecting the electric circuits mounted on both sides of the tank are passed through the hollow space of the tubular body, the wiring passing outside the tank can be eliminated. That is, an electric wire connecting the electric circuits on both sides of the tank can be wired so as not to get in the way.
[0011]
In a seventh aspect, the present invention provides the X-ray generator configured as described above, wherein the tubular body has lip portions at both ends, and the tubular body is attached to the tank by pressing the lip portions with attachment plates. In addition, an X-ray generator is provided in which the tank is sealed.
[0012]
In an eighth aspect, the present invention provides an X-ray generator having the above-described configuration, wherein the tubular body has an oval cross-sectional shape.
In the X-ray generator according to the eighth aspect, since the cross-sectional outer shape of the tubular body is oval, it is easy to attach it in an airtight manner. Further, the tubular body easily expands and contracts due to the pressure difference. Moreover, it becomes easier to pass the electric wire through the hollow space.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. Note that the present invention is not limited thereby.
[0014]
FIG. 1 is a configuration diagram showing an X-ray fluoroscopic apparatus 10 including an X-ray generation apparatus 100 according to an embodiment of the present invention.
The X-ray fluoroscopic apparatus 10 includes an irradiation unit 1 including an X-ray generation device 100, a cradle 2 on which a subject H is placed, a detection unit 3 that detects X-rays transmitted through the subject H, an irradiation unit 1, and a detection unit. The part 3 includes a C-shaped movable arm 4 installed at each end, and a stand 5 that supports the movable arm 4.
[0015]
FIG. 2 is an external perspective view of the X-ray generator 100 according to one embodiment of the present invention.
In this X-ray generator 100, a tank base 11, a tank side 12, and a tank top 13 contain a high voltage assembly (23 in FIG. 8) and an X-ray tube assembly (24 in FIG. 8) and insulating oil (FIG. 8). 30).
[0016]
The bottom surface of the tank base 11 is covered with a bottom cover 14 that protects the bottom-side electric circuit (22 in FIG. 8).
[0017]
On the upper surface of the tank top 13, a hollow cavity (15c in FIG. 8) of the tubular body 15 made of a rubber material is opened. The tubular body 15 is airtightly fixed to the tank top 13 with its lip portion (15a in FIG. 8) pressed by the mounting plate 16a.
[0018]
Further, an X-ray emission port 17 is opened on the upper surface of the tank top 13.
[0019]
An X-ray emission window side electric circuit 18 is installed on the upper surface of the tank top 13. The wiring 20 connected to the connector 19 of the X-ray emission window side electric circuit 18 is connected to the bottom electric circuit (22 in FIG. 8) through the hollow space (15c in FIG. 8) of the tubular body 15.
[0020]
FIG. 3 is an external perspective view schematically showing the main part of the X-ray generator 100.
An X-ray exit window 21 is opened on the upper surface of the tank top 13.
[0021]
4 and 5 are external perspective views schematically showing the main part of the X-ray generator 100 with the bottom cover 14 removed.
When the bottom cover 14 is removed, the bottom electrical circuit 22 becomes visible.
[0022]
6 and 7 are external perspective views schematically showing the main part of the X-ray generator 100 with the tank side 12 and the tank top 13 removed.
When the tank side 12 and the tank top 13 are removed, the tubular body 15, the high voltage assembly 23, and the X-ray tube assembly 24 become visible.
[0023]
FIG. 8 is a partially broken cross-sectional view showing the main part of the X-ray generator 100.
The tubular body 15 accommodates the high voltage assembly 23 and the X-ray tube assembly 24 and penetrates the tank containing the insulating oil 30 and opens to the upper surface of the tank top 13 and the lower surface of the tank base 11.
The tubular body 15 is airtightly fixed to the tank top 111 while the lip portion 15a is pressed by the mounting plate 16a and is airtightly fixed to the tank top 13, and the lip portion 15b is pressed by the mounting plate 16b and airtightly fixed.
The tank side 12 and the tank top 13 are integrally molded products.
[0024]
FIG. 9A is an enlarged cross-sectional view of the lip portion 15 a of the tubular body 15.
The lip portion 15a is provided with a recess 15A that facilitates deformation of the lip portion 15a. Although not shown, the lip portion 15b is also provided with a similar recess.
[0025]
FIG. 9B is a cross-sectional view of the tubular body 15 as seen from below.
The cross-sectional outer shape of the tubular body 15 is oval.
[0026]
FIG. 10 is a chart showing the characteristics of the material of the tubular body 15.
The material of the tubular body 15 is butadiene having a Shore hardness of up to 75 and an acrylic nitrate grade rubber (BUTADIENE AND ACRYLIC NITRIDO (NBR) grade of Rubber). The maximum operating temperature range is −30 ° C. to 120 ° C. However, the normal operating temperature range is 20 ° C to 70 ° C.
[0027]
Next, an assembly procedure of the X-ray generator 100 will be described with reference to FIGS.
First, as shown in FIG. 11, the tubular body 15, the high voltage assembly 23, the X-ray tube assembly 24, and the bottom electric circuit 22 are attached to the tank base 11. Then, the wiring 20 from the bottom electric circuit 22 is passed through the hollow cavity 15 c of the tubular body 15.
[0028]
Next, as shown in FIG. 12, the tank side 12 and the tank top 13 are airtightly attached to the tank base 11. The lip portion 15 a of the tubular body 15 is put out on the upper surface of the tank top 13.
[0029]
Next, as shown in FIG. 13, the attachment plate 16a is attached. At this time, the lip portion 15a of the tubular body 15 is airtight so as to be pressed against the upper surface of the tank top 13 by the mounting plate 16a.
[0030]
Thus, the state shown in FIG. 14 is obtained.
Thereafter, the insulating oil 30 is placed in the tank. The insulating oil 30 is put in a vacuum state at 65 ° C. and sealed under atmospheric pressure. Care should be taken that no air bubbles are present in the insulating oil 30 before the tank is sealed.
[0031]
Finally, as shown in FIG. 2, an X-ray emission window side electric circuit 18 and the like are attached to the upper surface of the tank top 13. Further, the wiring 20 is connected to the connector of the X-ray emission window side electric circuit 18.
[0032]
According to the X-ray tube generator 100 described above, the following effects can be obtained.
(1) Although the tubular body 15 expands and contracts according to the difference between the pressure of the hollow cavity 15c of the tubular body 15 and the pressure inside the tank, since the hollow cavity 15c opens to the surrounding space, the pressure inside the tank is substantially the surrounding space. It will be maintained at the pressure. In other words, the volume expansion of the insulating oil 30 due to heat generation of the high voltage assembly 23 and the X-ray tube assembly 24 can be compensated.
(2) Since the hollow space 15c of the tubular body 15 is open to the surrounding space at the lower surface of the tank base 11 and the upper surface of the tank top 13, dust in the surrounding space is less likely to accumulate inside the hollow space 15c, No complicated maintenance is required.
(3) Since the tubular body 15 penetrates the tank, the wiring 20 connecting the electric circuits 18 and 22 mounted on both sides sandwiching the tank is passed through the hollow space 15c, thereby eliminating the wiring passing outside the tank. I can do it. Therefore, the electric wires connecting the electric circuits on both sides of the tank do not get in the way, and the aesthetics can be further improved.
(4) The tubular body 15 has a simple structure that is easy to manufacture. In addition, since the cross-sectional outer shape is an ellipse, it is easy to attach airtight, expand and contract sensitively to a pressure difference, and easily pass wiring through the hollow space 15c.
[0033]
As other embodiments, the material of the tubular body 15 includes chloroprene rubber (CR), acrylic rubber (ACM), fluoro rubber (FKM), hydrin rubber (ECO, CO), ethylene-vinyl acetate copolymer rubber, ethylene-acetic acid. Examples include those using vinyl-acrylate copolymer rubber, ethylene-acrylate copolymer rubber, phosphazene rubber and the like.
Moreover, what made the cross-sectional external shape of the tubular body 15 circular is mentioned.
[0034]
【The invention's effect】
According to the X-ray generator of the present invention, the volume expansion of the insulating liquid due to heat generation of the high voltage assembly and the X-ray tube assembly can be compensated by the expansion and contraction of the tubular body. Further, since dust does not easily accumulate in the hollow space of the tubular body, complicated maintenance is not necessary. Furthermore, since the wiring can be passed through the hollow space of the tubular body, the electric wire passing outside can be eliminated, the electric wire does not get in the way, and the aesthetics can be improved.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an X-ray fluoroscopic apparatus including an X-ray generation apparatus according to a first embodiment.
FIG. 2 is an external perspective view showing the X-ray generator according to the first embodiment.
FIG. 3 is an external perspective view schematically showing a main part of the X-ray generator according to the first embodiment.
FIG. 4 is a perspective view of an external appearance schematically showing a state in which a bottom cover is removed from a main part of the X-ray generator according to the first embodiment.
FIG. 5 is a perspective view of an external appearance schematically showing a state in which a bottom cover is removed from a main part of the X-ray generator according to the first embodiment.
FIG. 6 is a perspective view of an external appearance schematically showing a state in which the tank side and the tank top are further removed from the main part of the X-ray generator according to the first embodiment.
FIG. 7 is a perspective view of an external appearance schematically showing a state in which the tank side and the tank top are removed from the main part of the X-ray generator according to the first embodiment.
FIG. 8 is a partially broken cross-sectional view showing a main part of the X-ray generator according to the first embodiment.
FIG. 9 is an enlarged sectional view showing a lip portion of the tubular body according to the first embodiment and a transverse sectional view showing a sectional outer shape.
FIG. 10 is a chart showing the characteristics of the material of the tubular body according to the first embodiment.
FIG. 11 is a first perspective view showing an assembly procedure of the X-ray generator according to the first embodiment.
FIG. 12 is a second perspective view showing an assembly procedure of the X-ray generator according to the first embodiment.
FIG. 13 is a third perspective view showing the assembly procedure of the X-ray generator according to the first embodiment.
FIG. 14 is a fourth perspective view showing the assembly procedure of the X-ray generator according to the first embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 X-ray fluoroscope 11 Tank base 12 Tank side 13 Tank top 15 Tubular body 15a, 15b Lip part 15A Depression part 15c Hollow cavity 18 X-ray emission window side electric open circuit 20 Wiring 22 Bottom side electric circuit 23 High voltage assembly 24 X-ray tube Assembly 30 Insulating oil 100 X-ray generator

Claims (8)

An X-ray generator that contains a high-voltage assembly and an X-ray tube assembly in a tank and seals the tank by containing an insulating liquid, and includes a tubular body that penetrates the tank, and the tubular body is provided at both ends of the tubular body. The X-ray generator according to claim 1, wherein the hollow space of the tubular body is open to the surrounding space, and the tubular body expands and contracts according to the difference between the pressure of the hollow space and the pressure inside the tank. 2. The X-ray generator according to claim 1, wherein the tubular body is made of an oil resistant rubber material. The X-ray generator according to claim 2, wherein the oil-resistant rubber material is nitrile rubber. The X-ray generator according to any one of claims 1 to 3, wherein the tubular body penetrates the tank in the X-ray irradiation direction. 5. The X-ray generator according to claim 1, wherein the hollow space of the tubular body is a wiring passage. 5. The X-ray generator according to claim 4, wherein an electric circuit is mounted on the X-ray emission window side of the tank and the opposite side thereof, and the hollow cavity of the tubular body is connected to the wiring passage of the electric wire connecting the electric circuits on both sides. An X-ray generator characterized by comprising: 7. The X-ray generator according to claim 1, wherein the tubular body has lip portions at both ends, and the tubular body is attached to the tank by pressing the lip portion with a mounting plate, and the tank. X-ray generator characterized by sealing. The X-ray generator according to any one of claims 1 to 7, wherein the tubular body has an oval cross-sectional shape.

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